JPH01100543A - Method and device for photographic processing - Google Patents

Abstract

PURPOSE:To enable the reutilization of a rinsing liquid by blowing the waste heat air of a drying section to a waste liquid housed therein to evaporate the waste liquid, then introducing the low-humidity air dried on cooling of the vapor thereof into the drying section, thereby executing the drying of a photosensitive material and processing of the rinsing liquid. CONSTITUTION:The rinsing liquid overflowing from a rinsing layer 12 is fed as the waste liquid and is housed into a waste liquid tank 23. Since the lower part of an evaporating medium is immersed in the waste liquid tank 23, the medium stuck with the waste liquid moves. The air heated in a heater 45 and the waste heat air of the drying section 30 are blown to this evaporating medium to evaporate the moisture in the waste liquid sticking thereto. The air contg. the moisture is cooled in a cooler 30 and is returned to the rinsing tank 12. The heat in the waste air in the drying section 30 is blown to the evaporating medium. The moisture in the waste liquid is thereby absorbed in the system by evaporating the same and is reutilized. On the other hand, the air cooled in the cooler 30 is dehumidified by dew condensation. The high-temp. air of the extremely low humidity is obtd. at the point of the time when said air is heated by a heater provided in the drying section. Efficient drying is thus executed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a photographic processing method and apparatus, and more particularly to a photographic processing apparatus configured by sequentially arranging a developing tank, a fixing tank, a rinsing tank, and a drying section. The present invention relates to a photographic processing method and apparatus in which waste liquid discharged from a rinsing tank can be reused.

[Prior Art] A photographic processing apparatus has a structure in which a developing tank, a fixing tank, a rinsing tank, and a drying section are arranged in sequence, through which an exposed silver halide photosensitive material (hereinafter simply referred to as photosensitive material) is passed. Development, fixing, washing, and drying are sequentially performed. In color photosensitive materials, a color developing tank is used as a developing tank, and a bleach-fixing tank or the like is used as a fixing tank for desilvering. The rinsing tank includes a rinsing tank containing a rinsing liquid, a rinsing tank containing rinsing water, and a stabilizing tank containing a stabilizing liquid, and these are generally referred to as a rinsing tank. Ru.

In recent years, environmental conservation and resource conservation have become a focus of attention in photographic processing of light-sensitive materials, and there is a desire to save processing liquids and to eliminate waste by reusing processing liquids. Based on these demands, the electrodialysis method (ref.
'J, Appl.

Ph0t, En(], ” 5.208 (1979
) and ion-exchange resin method (Reference “J, Appl.
, Phot, Eng, ”5.132 and 216
(1979)) has been put into practical use. Regarding the regeneration of bleach-fix solutions used in color photographic processing, the ion exchange resin method (References "J, AI)",
phot, Eng, “2゜65 (1979)) and the steel wool method (Reference “Kodak p
ubl 1 oation'' No. J-9), a method of adding a regenerating agent to the overflow liquid and using it again as a replenisher (see Japanese Patent Laid-Open No. 48-49437), etc. have been put into practical use.

By the way, regarding the reuse of the rinse solution, the ion exchange resin method (Reference "J, Appl, Phot, Eng."
6, 120 (1980), 5.141 (1
979)) and a method using a reverse osmosis device (USSR Patent No. 701963).

JP-A No. 58-105150) is known, but
The device is complicated and has not been put into practical use due to economical reasons. Furthermore, in order to recover the waste heat of the drying air from the drying section,
Conventionally, a method has been adopted in which drying air waste air is taken back into the drying section, but the humidity in the drying air waste air is high, so taking in waste air is undesirable, as it lowers the drying efficiency of the photosensitive material and lengthens the drying time.

[Problems to be Solved by the Invention] The present invention has been made in view of the above circumstances, and its purpose is to enable reuse of the rinsing liquid with a simple structure and to efficiently dry photosensitive materials. The object of the present invention is to provide a method and apparatus for photographically processing light-sensitive materials.

[Means for solving the problems] In order to achieve the above object, the photographic processing method of the present invention includes the following:
The waste liquid discharged from the rinsing tank is stored, and heated air containing the waste heat air from the drying section is blown onto the stored waste liquid to evaporate the waste liquid, so that the moisture in the evaporated steam is condensed. The vapor is cooled, and the low-humidity air dried by this cooling is introduced into the drying section to dry the photosensitive material and process the rinsing liquid.

The photographic processing apparatus of the present invention includes a waste liquid tank for storing waste liquid discharged from a rinsing tank, and a means for blowing heated air containing waste heat air from a drying section onto the waste liquid in the waste liquid tank to evaporate the waste liquid. and a cooling means for cooling the vapor generated by the evaporating means to condense the moisture contained therein and introducing low-humidity air into the drying section.

More specifically, the photographic processing apparatus of the present invention includes a waste liquid tank containing waste liquid discharged from a rinsing tank, an evaporation medium such as an endless belt partially soaked in the waste liquid in the waste liquid tank, and an evaporation medium such as an endless belt partially soaked in the waste liquid in the waste liquid tank, and A means for evaporating the waste liquid by blowing a mixture of waste heat air from the drying section and hot air from the radiator onto the waste liquid adhering to the medium and taken out from the waste liquid tank; It is equipped with a cooler that cools and condenses the moisture contained therein, and means such as piping that introduces the low-humidity air obtained by this cooling into the drying section.

[Function] In the processing method using the photographic processing apparatus configured as described above, the rinsing liquid overflowing from the rinsing tank is sent as waste liquid to the waste liquid tank and stored therein. Since the lower part of the evaporation medium is immersed in the waste liquid tank, it moves with waste liquid attached to it.

Air heated by a radiator and waste heat air from the drying section are blown onto this evaporation medium to evaporate the moisture in the waste liquid that has adhered to it. This moisture-containing air is cooled by a cooler, and the moisture is condensed and recovered. The collected water is filtered using a filter as necessary and then returned to the rinsing tank for reuse. The waste liquid tank is concentrated by evaporation of water, but this concentrated liquid may be returned to the fixing tank and reused, or it may be concentrated to a predetermined value and then discharged to recover valuable components such as silver. It may be disposed of. The heat in the waste air of the drying section is absorbed by the system and reused by evaporating the water in the waste liquid by blowing it against the evaporation medium.

On the other hand, the air cooled by the cooler is dehumidified by dew condensation, and when heated by the heater provided in the drying section, it becomes extremely low-humidity, high-temperature air, allowing efficient drying.

[Embodiments] Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In FIG. 1 showing a photographic processing apparatus for color photographic paper, a color developing tank 10. @ White fixing tank 11.4 rinsing tanks 12
.about.1θ are sequentially provided, through which the color photographic paper is sequentially passed and subjected to color development processing, bleach-fixing processing, and water washing processing.

The color developing tank 10 is provided with an overflow pipe 10a, and the overflowing color developer is sent to a recovery device 17 as waste liquid. Also, this color developing tank 10
Although not shown, it is equipped with stirring vending means, liquid temperature regulating means, replenishing liquid supplying means, etc., as usual.

The bleach-fix tank 11 is provided with an overflow pipe 11a, and the overflowing bleach-fix solution is sent to the regenerating device 18. The bleach-fix solution regenerated by this regenerating device 18 is returned to the bleach-fix tank 11 via a pipe 18a and reused. Further, the bleach-fix tank 11 is connected to a concentration side outlet of a waste liquid regenerating device 20, which will be described later, through a pipe 20a, and the concentrated rinsing liquid is returned to the bleach-fix tank 11. Although not shown, the bleach-fixing tank 11 is equipped with a stirring means, a liquid temperature adjusting means, and a replenishing liquid supplying means as usual.

The rinsing tanks 12 to 16 are connected to a connecting pipe 21 in a cascade configuration. ! (showing an example of a four-stage countercurrent flow), and the rearmost rinse tank 16 is provided with a water supply pipe 16a.

Further, the foremost rinsing tank 12 is provided with an overflow pipe 12a for sending the overflowing rinsing liquid as waste liquid to the waste liquid regenerating device@20. Further, the rinsing tank 15 is connected to the outlet of the waste liquid regenerating device 20 by a pipe 20b, and the water recovered by this waste liquid regenerating device @20 is supplied as a rinsing liquid and reused.

The drying section 30 consists of a drying fan 32, 33 with a heater and a conveying section. This drying section 30 is connected to a winding section 40. The drying fans 32 and 33 with heaters in the drying section 3o are connected to the air hole at the outlet of the cooler of the waste liquid regenerating device 2o by a pipe 34, and this air is dehumidified. On the other hand, a pipe 35 for blowing waste heat air to the evaporation medium of the waste liquid regeneration device 20 is provided near the outlet of the drying section 3o. @2o to evaporate the water in the waste liquid and recover the waste heat.

FIG. 2 shows an embodiment of the waste liquid regenerating device 20. As shown in FIG. This waste liquid regenerating device 20 has a waste liquid tank 23 provided in its main body case 22, and waste liquid of rinsing liquid stored in the waste liquid tank 24 is supplied through a pipe 25. This tube 25 is provided with a pump 28 controlled by a float switch 26 and a pump drive circuit 27. In this pump 28, the float switch 26 is connected to the waste liquid 29.
The system operates until the liquid level is detected, and waste liquid is replenished during that period. A pipe 20a shown in FIG. 1 is connected to the waste liquid tank 23, and the concentrated rinsing liquid is returned to the bleach-fix tank 11 for reuse.

Pulleys 32a and 32b are installed in the waste liquid tank 23, and endless belts 34a and 34b are stretched between the corresponding pulleys 33a and 33b provided in the main body case 22, respectively. There is. The pulleys 33a and 33b are ■belt 35a
, 35b to the motor M1.

A duct 36 is provided above the pulleys 33a and 33b.
A fan 37 is provided within the duct 36. When the motor M1 rotates, the fan 37 is rotated by the belt 38, and the belt 35a,
The pulleys 33a and 33b are rotated by the pulley 35b. As the pulleys 33a and 33b rotate, the endless belts 34a and 34b rotate between the corresponding pulleys. In this case, the waste liquid 29 that has permeated the endless belts 34a, 34b is evaporated, and the air containing moisture is sent to the cooler 39 through the duct 36. There, the moisture is condensed and collected. Part of the air from which moisture has been removed is returned to the endless belts 34a, 34b, and the rest is exhausted from the exhaust hole 22a. A tray 40 is provided below the cooler 39 to catch condensed water droplets. The water (distilled water) collected in the tray 40 is passed through a pipe 41 to a filter 4 disposed outside the main case 22.
Sent to 2. This filter 42 contains activated carbon and the like, and after removing organic substances, it is returned to the rinse layer 15 and reused. Furthermore, an intake hole 22b is formed in the main body case 22, into which waste heat from the drying section 30 is sent through a pipe 35 and blown onto the endless belt 34a134b. Further, this sucked air may be mixed with outside air heated by a radiator 45 and blown onto the endless belts 34a and 34b by a fan 46. The radiator 45 and the cooler 39 are connected via a pipe 48 with an expansion valve 47 interposed therebetween.
When the refrigerant liquefied in the radiator 45 passes through the expansion valve 47, its concentration is lowered, and then it is sent to the cooler 39. In this cooler 39, the refrigerant absorbs heat of vaporization from the air and evaporates, and this vapor is sent to the compressor 50 through a pipe 49. The compressor 50 pressurizes refrigerant vapor to turn it into superheated vapor, and then sends it to the radiator 45. In this radiator 45, the refrigerant is cooled by surrounding heat and returned to liquid.

According to the waste liquid regenerating apparatus 20 configured as described above, the waste liquid discharged from the rinse layer 12 is temporarily stored in the waste liquid tank 24 and then supplied to the waste liquid tank 23 by the pump 28. During the regeneration process, by driving the motor M1, the endless belts 34a and 34b run with some seeds soaked in the waste liquid. Therefore, waste liquid 29
The endless belts 34a and 34b to which the liquid has adhered are pulled out from the waste liquid tank 23 and exposed to the outside air. Air mixed with air that flows in through the intake holes 22b and is heated by the heater 45 is blown onto the endless belts 34a and 34b exposed to the outside air. As a result, the water in the waste liquid adhering to the endless belts 34a, 34b is evaporated. The humid air containing the evaporated water is sent to the cooler 39 through the duct 36 by the fan 37. Since the water vapor in the air is cooled by the cooler 39,
Condensation condenses and drips onto the tray 40. Part of the air from which moisture has been removed is recirculated, but the rest is exhausted from the exhaust hole 22a.

The air discharged from the exhaust hole 22a is dehumidified, and by sending it through the pipe 34 to the heater-equipped fans 32 and 33 shown in FIG. 1, hot air with low humidity and high temperature can be produced. This low-humidity, high-temperature hot air is sent to the drying section 30.
Processed photosensitive materials can be efficiently dried inside the chamber. The used hot air from the drying section 30 is at a high temperature, and is introduced into the suction port 22b through the pipe 35 to efficiently evaporate water from the endless belts 34a and 34b due to the high temperature action.

The rotation of the endless belts 34a and 34b evaporates water in the waste liquid, so that the waste liquid 29 is concentrated. This concentrated solution is supplied as a replenisher to the bleach-fix tank 11 via the pipe 20a.

It should be noted that the endless belts 34a and 34b used are those that allow waste liquid to easily adhere to them and are breathable. These include mesh belts made of plastic, synthetic resin sheets with a mesh structure, and cloth. Further, in the illustrated example, two endless belts are used in order to improve the evaporation efficiency and downsize the device, but the number is not necessarily limited to this. Alternatively, the waste liquid tank 24 may be omitted and the waste liquid discharged from the rinse tank 12 may be directly put into the waste liquid tank 23. In this case, it is important to keep the amount of rinsing liquid small in advance in order to prevent the waste liquid from overflowing.

Furthermore, the concentrated waste liquid may not be returned to the fixing tank, but may be concentrated to a predetermined value and then discharged, and valuable components such as silver may be recovered before being disposed of.

FIG. 3 shows an example of a combination of a color paper roller transport type drying section 30 and a waste liquid regenerating device 20. In this case, outside air A and waste heat air B enter the waste liquid regeneration device 20, and dehumidified air C enters the waste liquid regeneration device 20.
taken from. In the drying zone, outside air and dehumidified air C are heated by a heater to dry the processed photosensitive material. A portion of the waste heat air from the drying section 30 is discharged to the outside air E, and a portion B is introduced to the waste liquid regenerating device 20.

That is, B+A=C C ten = E ten B The relationship holds true.

For an efficient factory of the waste liquid regenerating device 20, B/A is preferably 1 or more and 20 or less. In order to improve the thermal efficiency of the drying section 30, C/D is preferably 1 or more and 50 or less, and B/D is preferably 1 or more and 50 or less.
E is preferably 1 or more and 50 or less.

[Effects of the Invention] As described above, according to the present invention, the rinsing liquid can be reused with a simple configuration, and the drying efficiency of the drying section can be increased, thereby effectively drying the photosensitive material. Can be done.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing a photographic processing apparatus according to an embodiment of the present invention, FIG. 2 is a diagram showing the specific configuration of a waste liquid regeneration device installed in the photographic processing apparatus, and FIG. 3 is a diagram showing the waste liquid regeneration device. It is a figure which shows an example of the connection of and a drying part. 10...Developer tank, 11...Fixer tank, 12-16...
- Rinse tank, 20... Waste liquid regeneration device, 30... Drying section, 39... Cooler, 45... Heat radiator. Applicant's agent Patent attorney Takehiko Suzue

Claims (5)

[Claims] (1) In a photographic processing method in which an exposed silver halide photosensitive material is passed through a developing tank, a fixing tank, a rinsing tank, and a drying section to photographically process the photosensitive material, a waste liquid discharged from the rinsing tank is stored, The stored waste liquid is blown with heated air containing the waste heat air from the drying section to evaporate the waste liquid, and the vapor is cooled so that the moisture in the evaporated vapor is condensed. A photographic processing method, comprising: introducing low-humidity air into the drying section to dry the photosensitive material and process a rinsing solution. (2) In a photographic processing apparatus configured by sequentially arranging a developing tank, a fixing tank, a rinsing tank, and a drying section, and performing photographic processing by passing an exposed silver halide photosensitive material through these, the rinsing tank a waste liquid tank for storing waste liquid discharged from the waste liquid tank; a means for blowing heated air containing waste heat air from the drying section onto the waste liquid in the waste liquid tank to evaporate the waste liquid; and steam generated by the evaporating means. 1. A photographic processing apparatus comprising a cooling means for cooling the water to condense moisture contained therein and introducing low-humidity air into the drying section. (3) The photographic processing apparatus according to claim 2, wherein the waste liquid in the waste liquid tank that has been concentrated by evaporation is used as the fixing liquid in the fixing tank. (4) The photographic processing apparatus according to claim 2, wherein the distilled water obtained by being cooled by the cooling means is returned to the rinsing tank and used as a rinsing liquid. (5) The second aspect of the present invention is characterized in that the heat released from the cooling means is used for evaporating the waste liquid.
Photographic processing equipment described in Section 1.